If an object is placed at the centre of a glass sphere and it is seen from outside, then prove that its virtual image is also formed at centre.

An object is placed 50 cm from the surface of a glass sphere of radius 10 cm along the diameter. Where will the final image be formed after refraction at both the surfaces ? mu of glass =1.5 .

A point object O is placed slightly above the centre C of a glass sphere as shown in figure. If it is viewed almost normally from above the sphere, its image is seen

There is a small black dot at the centre C of a solid glass sphere of refractive index mu . When seen from outside, the dot will appear to be located

An object is placed at the centre of curvature of a concave lens. The distance the between the image and the pole is:

An object is placed at the centre of curvature of a concave mirror . The distance between its image and the pole is

When an small object is placed at a distance x_(1) and x_(2) from a lens on its principal axis, then real image and a virtual image are formed respectively having same magnitude of transverse magnification. Then the focal length of the lens is :

An object is placed at a distance of 12 cm from a convex lens on its principal axis and a virtual image of certain size is formed. If the object is moved 8 cm away from the lens, a real image of the same size as that of the virtual image is formed. The focal length of the lens in cm is